Type.DeclaringMethod Propriété

public:
 virtual property System::Reflection::MethodBase ^ DeclaringMethod { System::Reflection::MethodBase ^ get(); };

public virtual System.Reflection.MethodBase? DeclaringMethod { get; }

public virtual System.Reflection.MethodBase DeclaringMethod { get; }

member this.DeclaringMethod : System.Reflection.MethodBase

Public Overridable ReadOnly Property DeclaringMethod As MethodBase

Valeur de propriété

Si le courant Type représente un paramètre de type d’une méthode générique, qui MethodBase représente la déclaration de méthode ; sinon, null.

Exemples

L’exemple de code suivant définit une classe qui a une méthode générique, affecte un argument de type à la méthode et appelle la méthode générique construite résultante. Il affiche également des informations sur la définition de méthode générique et la méthode construite. Lors de l’affichage d’informations sur les paramètres de type de la définition de méthode générique, dans la DisplayGenericMethodInfo méthode, l’exemple de code affiche la valeur de la DeclaringMethod propriété pour le paramètre de type générique de la méthode.

using System;
using System.Reflection;

// Define a class with a generic method.
public class Example
{
    public static void Generic<T>(T toDisplay)
    {
        Console.WriteLine("\r\nHere it is: {0}", toDisplay);
    }
}

public class Test
{
    public static void Main()
    {
        Console.WriteLine("\r\n--- Examine a generic method.");

        // Create a Type object representing class Example, and
        // get a MethodInfo representing the generic method.
        //
        Type ex = typeof(Example);
        MethodInfo mi = ex.GetMethod("Generic");

        DisplayGenericMethodInfo(mi);

        // Assign the int type to the type parameter of the Example
        // method.
        //
        MethodInfo miConstructed = mi.MakeGenericMethod(typeof(int));

        DisplayGenericMethodInfo(miConstructed);

        // Invoke the method.
        object[] args = {42};
        miConstructed.Invoke(null, args);

        // Invoke the method normally.
        Example.Generic<int>(42);

        // Get the generic type definition from the closed method,
        // and show it's the same as the original definition.
        //
        MethodInfo miDef = miConstructed.GetGenericMethodDefinition();
        Console.WriteLine("\r\nThe definition is the same: {0}",
            miDef == mi);
    }

    private static void DisplayGenericMethodInfo(MethodInfo mi)
    {
        Console.WriteLine("\r\n{0}", mi);

        Console.WriteLine("\tIs this a generic method definition? {0}",
            mi.IsGenericMethodDefinition);

        Console.WriteLine("\tIs it a generic method? {0}",
            mi.IsGenericMethod);

        Console.WriteLine("\tDoes it have unassigned generic parameters? {0}",
            mi.ContainsGenericParameters);

        // If this is a generic method, display its type arguments.
        //
        if (mi.IsGenericMethod)
        {
            Type[] typeArguments = mi.GetGenericArguments();

            Console.WriteLine("\tList type arguments ({0}):",
                typeArguments.Length);

            foreach (Type tParam in typeArguments)
            {
                // IsGenericParameter is true only for generic type
                // parameters.
                //
                if (tParam.IsGenericParameter)
                {
                    Console.WriteLine("\t\t{0}  parameter position {1}" +
                        "\n\t\t   declaring method: {2}",
                        tParam,
                        tParam.GenericParameterPosition,
                        tParam.DeclaringMethod);
                }
                else
                {
                    Console.WriteLine("\t\t{0}", tParam);
                }
            }
        }
    }
}

/* This example produces the following output:

--- Examine a generic method.

Void Generic[T](T)
        Is this a generic method definition? True
        Is it a generic method? True
        Does it have unassigned generic parameters? True
        List type arguments (1):
                T  parameter position 0
                   declaring method: Void Generic[T](T)

Void Generic[Int32](Int32)
        Is this a generic method definition? False
        Is it a generic method? True
        Does it have unassigned generic parameters? False
        List type arguments (1):
                System.Int32

Here it is: 42

Here it is: 42

The definition is the same: True

 */

open System.Reflection

// Define a class with a generic method.
type Example =
    static member Generic<'T>(toDisplay: 'T) =
        printfn $"\r\nHere it is: {toDisplay}"

let displayGenericMethodInfo (mi: MethodInfo) =
    printfn $"\n{mi}"

    printfn $"\tIs this a generic method definition? {mi.IsGenericMethodDefinition}"

    printfn $"\tIs it a generic method? {mi.IsGenericMethod}"

    printfn $"\tDoes it have unassigned generic parameters? {mi.ContainsGenericParameters}"

    // If this is a generic method, display its type arguments.
    //
    if mi.IsGenericMethod then
        let typeArguments = mi.GetGenericArguments()

        printfn $"\tList type arguments ({typeArguments.Length}):"

        for tParam in typeArguments do
            // IsGenericParameter is true only for generic type
            // parameters.
            if tParam.IsGenericParameter then
                printfn $"\t\t{tParam}  parameter position {tParam.GenericParameterPosition}\n\t\t   declaring method: {tParam.DeclaringMethod}"
            else
                printfn $"\t\t{tParam}"

printfn "\r\n--- Examine a generic method."

// Create a Type object representing class Example, and
// get a MethodInfo representing the generic method.
//
let ex = typeof<Example>
let mi = ex.GetMethod "Generic"

displayGenericMethodInfo mi

// Assign the int type to the type parameter of the Example
// method.
//
let miConstructed = mi.MakeGenericMethod typeof<int>

displayGenericMethodInfo miConstructed

// Invoke the method.
let args = [| box 42 |]
miConstructed.Invoke(null, args) |> ignore

// Invoke the method normally.
Example.Generic<int> 42

// Get the generic type definition from the closed method,
// and show it's the same as the original definition.
//
let miDef = miConstructed.GetGenericMethodDefinition()
printfn $"\r\nThe definition is the same: {miDef = mi}"

(* This example produces the following output:

--- Examine a generic method.

Void Generic[T](T)
        Is this a generic method definition? True
        Is it a generic method? True
        Does it have unassigned generic parameters? True
        List type arguments (1):
                T  parameter position 0
                   declaring method: Void Generic[T](T)

Void Generic[Int32](Int32)
        Is this a generic method definition? False
        Is it a generic method? True
        Does it have unassigned generic parameters? False
        List type arguments (1):
                System.Int32

Here it is: 42

Here it is: 42

The definition is the same: True

 *)

Imports System.Reflection

' Define a class with a generic method.
Public Class Example
    Public Shared Sub Generic(Of T)(ByVal toDisplay As T)
        Console.WriteLine(vbCrLf & "Here it is: {0}", toDisplay)
    End Sub
End Class

Public Class Test
    Public Shared Sub Main() 
        Console.WriteLine(vbCrLf & "--- Examine a generic method.")
        
        ' Create a Type object representing class Example, and
        ' get a MethodInfo representing the generic method.
        '
        Dim ex As Type = GetType(Example)
        Dim mi As MethodInfo = ex.GetMethod("Generic")
        
        DisplayGenericMethodInfo(mi)
        
        ' Assign the Integer type to the type parameter of the Example 
        ' method.
        '
        Dim arguments() As Type = { GetType(Integer) }
        Dim miConstructed As MethodInfo = mi.MakeGenericMethod(arguments)
        
        DisplayGenericMethodInfo(miConstructed)

        ' Invoke the method.
        Dim args() As Object = { 42 }
        miConstructed.Invoke(Nothing, args)
        
        ' Invoke the method normally.
        Example.Generic(Of Integer)(42)
        
        ' Get the generic type definition from the constructed method,
        ' and show that it's the same as the original definition.
        '
        Dim miDef As MethodInfo = miConstructed.GetGenericMethodDefinition()
        Console.WriteLine(vbCrLf & "The definition is the same: {0}", _
            miDef Is mi)
    End Sub
      
    Private Shared Sub DisplayGenericMethodInfo(ByVal mi As MethodInfo) 
        Console.WriteLine(vbCrLf & mi.ToString())
        
        Console.WriteLine(vbTab _
            & "Is this a generic method definition? {0}", _
            mi.IsGenericMethodDefinition)

        Console.WriteLine(vbTab & "Is it a generic method? {0}", _
            mi.IsGenericMethod)

        Console.WriteLine(vbTab _
            & "Does it have unassigned generic parameters? {0}", _
            mi.ContainsGenericParameters)

        ' If this is a generic method, display its type arguments.
        '
        If mi.IsGenericMethod Then
            Dim typeArguments As Type() = mi.GetGenericArguments()
            
            Console.WriteLine(vbTab & "List type arguments ({0}):", _
                typeArguments.Length)
            
            For Each tParam As Type In typeArguments
                ' IsGenericParameter is true only for generic type
                ' parameters.
                '
                If tParam.IsGenericParameter Then
                    Console.WriteLine(vbTab & vbTab _
                        & "{0}  parameter position: {1}" _
                        & vbCrLf & vbTab & vbTab _
                        & "   declaring method: {2}", _
                        tParam,  _
                        tParam.GenericParameterPosition, _
                        tParam.DeclaringMethod)
                Else
                    Console.WriteLine(vbTab & vbTab & tParam.ToString())
                End If
            Next tParam
        End If
    End Sub 
End Class 

' This example produces the following output:
'
'--- Examine a generic method.
'
'Void Generic[T](T)
'        Is this a generic method definition? True
'        Is it a generic method? True
'        Does it have unassigned generic parameters? True
'        List type arguments (1):
'                T  parameter position: 0
'                   declaring method: Void Generic[T](T)
'
'Void Generic[Int32](Int32)
'        Is this a generic method definition? False
'        Is it a generic method? True
'        Does it have unassigned generic parameters? False
'        List type arguments (1):
'                System.Int32
'
'Here it is: 42
'
'Here it is: 42
'
'The definition is the same: True
'

Remarques

La méthode déclarante est une définition de méthode générique. Autrement dit, s’il DeclaringMethod ne retourne nullpas, DeclaringMethod.IsGenericMethodDefinition retourne true.

Les DeclaringType propriétés identifient DeclaringMethod la définition de type générique ou la définition de méthode générique dans laquelle le paramètre de type générique a été initialement défini :

• Si la DeclaringMethod propriété retourne un MethodInfo, qui MethodInfo représente une définition de méthode générique et l’objet actuel Type représente un paramètre de type de cette définition de méthode générique.

• Si la DeclaringMethod propriété retourne null, la DeclaringType propriété renvoie toujours un Type objet représentant une définition de type générique, et l’objet actuel Type représente un paramètre de type de cette définition de type générique.

• Obtention de la DeclaringMethod propriété sur un type dont IsGenericParameter la propriété est false levée .InvalidOperationException

L’élément MethodBase retourné par la DeclaringMethod propriété est soit un MethodInfo dans le cas d’une méthode générique, soit dans ConstructorInfo le cas d’un constructeur générique.

Pour obtenir la liste des conditions invariantes pour les termes utilisés dans la réflexion générique, consultez les remarques sur les IsGenericType propriétés.

Voir aussi

• IsGenericParameter
• Réflexion et types génériques
• Guide pratique pour examiner et instancier des types génériques avec réflexion